Hypermethylation in the promoter regions of flavonoid pathway genes is associated with skin color fading during ‘Daihong’ apple fruit development

Xu, Jihua; Xiong, Lan; Yao, Jia-Long; Zhao, Peilei; Jiang, Shenghui; Sun, Xiaohong; Dong, Chaohua; Jiang, Hongyuan; Xu, Xinyue; Zhang, Yugang

doi:10.1093/hr/uhae031

Horticulture Research

2024

DOI: 10.1093/hr/uhae031

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Hypermethylation in the promoter regions of flavonoid pathway genes is associated with skin color fading during ‘Daihong’ apple fruit development

Jihua Xu,

Lan Xiong,

Jia-Long Yao

et al.

Abstract: Apple fruit skin color fading is not well understood although the molecular mechanism of skin color formation is well known. The red-fleshed apple cultivar ‘Daihong’ (‘DH’) exhibited fading skin color during fruit development despite having a heterozygous R6 allele but lacking Red-TE for red fruit skin. In this study, transcriptomic analysis revealed the expression level of MdMYB10 increased with fruit development whereas reduced expression levels of MdMYBPA1, MdCHS, MdANS, MdUFGT, MdLAR, and MdANR were observ… Show more

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Exogenous Methylation Inhibitor 5‐Azacytidine Accelerates Postharvest Leaf Senescence in Pak Choi by Modulating Transcriptomic and Metabolomic Profiles

Wang,

Zhang,

et al. 2024

Food Frontiers

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The senescence of leafy vegetables is inherent and general after harvest. DNA methylation affects the senescence process of plant leaves. Limited studies have explored the impact of exogenous methylation inhibitors on postharvest vegetables and the mechanisms of their effects on the transcriptome and metabolome during storage. In this study, pak choi was immersed in 100 mg L−1 of 5‐azacytidine (AZ) (an inhibitor of methyltransferase) solutions, indicated that AZ yielded significant acceleration in leaf senescence. Compared to the control group, the AZ‐treated pak choi exhibited faster weight loss, higher malondialdehyde content, greater color change, and higher chlorophyllase activity. Transcriptomic and widely targeted metabolomic analyses were then performed on pak choi samples. Transcriptomic investigation disclosed that the chlorophyll degradation genes BraSGR2 and BraPPH were upregulated by AZ, leading to the degradation of more chlorophyll content. AZ effectively stimulated upregulation of the senescence‐associated genes (BraSAG20, BraSAG21, BraSRG1, and BraSRG2), thereby accelerating the pace of the senescence process. The widely targeted metabolomic analyses demonstrated that AZ downregulated the flavonoid synthase genes BraFLS1 and BraF3H, causing a relative decline in flavonoid levels. The study also unveiled a diminution in carbohydrate content during storage, further exacerbated by AZ. To encapsulate, our preliminary findings suggest that the application of AZ effectively accelerates the process of leaf senescence in stored pak choi, which helps us understand the relationship between DNA demethylation and vegetable senescence.

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Exogenous Methylation Inhibitor 5‐Azacytidine Accelerates Postharvest Leaf Senescence in Pak Choi by Modulating Transcriptomic and Metabolomic Profiles

Wang,

Zhang,

et al. 2024

Food Frontiers

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show abstract

5-azaC treatment affected anthocyanins, sugars and organic acids and reduced DNA methylation in Merlot grape

Xie,

Tan,

Zhang

et al. 2025

Plant Physiology and Biochemistry

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Hypermethylation in the promoter regions of flavonoid pathway genes is associated with skin color fading during ‘Daihong’ apple fruit development

Cited by 2 publications

References 62 publications

Exogenous Methylation Inhibitor 5‐Azacytidine Accelerates Postharvest Leaf Senescence in Pak Choi by Modulating Transcriptomic and Metabolomic Profiles

Exogenous Methylation Inhibitor 5‐Azacytidine Accelerates Postharvest Leaf Senescence in Pak Choi by Modulating Transcriptomic and Metabolomic Profiles

5-azaC treatment affected anthocyanins, sugars and organic acids and reduced DNA methylation in Merlot grape

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